There are about 173942 clinical studies being (or have been) conducted in United States. The country of the clinical trial is determined by the location of where the clinical research is being studied. Most studies are often held in multiple locations & countries.
A single center randomized control study. Patients >18 years with isolated distal radius fractures treated non-operatively will be randomly assigned to either the treatment group (exercise of contralateral "well" arm) or control group (standard fracture care and rehabilitation).
This investigation is a prospective, multi-center clinical investigation. It is anticipated that a total of one hundred (100) subjects will be enrolled at approximately 5-10 sites. The clinical investigation has been designed to follow the surgeon's standard of care for joint arthroplasty patients, which entails clinical evaluation on a regular ongoing basis, or as needed should the patient become symptomatic in the treated joint.
This study aims to gather preliminary data regarding acupuncture and mindfulness in the treatment of chronic pain.
Flash glucose monitoring is an FDA-approved and widely clinically available, glucose monitoring technology that is worn on the body and measures glucose values every 15 minutes, storing this data for up to 14 days. The Freestyle Libre Pro is already used as a diagnostic technology in clinical care. It provides a full 24-hour glucose profile for each day that the sensor is worn and that can be correlated with daily activities, medication administration, food intake, and other factors that are contextually relevant in meeting glycemic goals for an individual patient. In this study, patients referred to Endocrinology for specialty diabetes care will be randomized to an in-person visit as is typically done or to wear the Freestyle Libre Pro placed by staff at their primary care clinic. Patients who wear the Freestyle Libre Pro will have a professional interpretation of their glucose data completed by an endocrinologist as well as a remote eConsult completed using this glucose data and information from their medical record. The recommendations from the eConsult regarding medication and lifestyle adjustment as well as potential referral on to see Endocrinology will be implemented by the primary care physician at their clinical discretion. The investigators will utilize glycemic measures including hemoglobin A1c, number of clinical visits (outpatient, inpatient and emergency department) for diabetes care, patient reported outcomes including self-efficacy, and patient and provider assessments of burden to determine if eConsults utilizing flash glucose monitoring technology are non-inferior to in-person visits with a diabetes specialist.
The purpose of this study is to investigate the safety and efficacy of TCRαβ+/CD19+ depleted allogeneic hematopoietic stem cell transplant (HSCT) for malignant and non-malignant disorders in children and adolescent/young adult patients using the CliniMACS® immunomagnetic selection device (Miltenyi Biotec).
Open-label, clinical trial of scAAV9.U1a.hSGSH injected intravenously through a peripheral limb vein
The purpose of the study is to assess the effectiveness of re-induction with Nivolumab combined with ipilimumab.
Intraoperative radiotherapy (IORT) is a type of accelerated partial breast irradiation (APBI) in which radiation therapy is delivered to the breast tissue in a single treatment at the time of lumpectomy for breast cancer. The Xoft device (Axxent, Xoft, San Jose, CA) is a device that allows for IORT for breast cancer using kilovoltage (kV) photons. A central goal of this study is to report acute and late toxicities and cosmetic outcomes following breast IORT with the Xoft device in women with early-stage breast cancer treated with lumpectomy. The investigators hypothesize that IORT following lumpectomy will be safe and well tolerated with a lower rate of physician reported acute side effects than traditional whole breast radiation therapy after lumpectomy.
Elevated plasma triglycerides (TG) are due to an excess of TG-rich lipoproteins of several different types, most commonly of very-low-density lipoproteins (VLDL), but also intermediate-density lipoproteins (IDL, or VLDL remnants), chylomicrons, and/or chylomicron remnants. Epidemiologic evidence that a moderate elevation in TG is often associated with increased atherosclerotic cardiovascular disease (ASCVD) risk, and more recent evidence from Mendelian randomization studies has shown that elevated TG associated with genetic variants may be a causal factor for ASCVD and possibly for premature all-cause mortality.[1-6] Fasting plasma TG concentrations may be categorized as: normal (< 150 mg/dL ), borderline (150-199 mg/dL), high TG (HTG, 200-499 mg/dL), and very high TG (VHTG, ≥ 500 mg/dL).[7, 8] Risk of acute pancreatitis is increased in VHTG patients, especially those with TG ≥ 1000 mg/dL.[9] For VHTG, the primary goal of therapy is to reduce TG to < 500 mg/dL,[10] whereas there is no specific treatment goal for HTG nor prescription indication. However, the omega-3 fatty acids, EPA and DHA have well-established efficacy in reducing TG in the range of 150-500 when administered at doses of > or = 3 g/d EPA+DHA (reviewed in Skulas-Ray et al. in press). Importantly, administration of omega-3 fatty acids to people with TG in this range lead to a 25% reduction in major adverse cardiovascular endpoints in the recently completed "Reduction of Cardiovascular Events with EPA Intervention Trial" (REDUCE-IT).[11] The results of REDUCE-IT provide compelling evidence for the use 3 g/d omega-3 fatty acid supplementation to reduce cardiovascular risk among patients with TG 150-500 mg/dL. The concentrated EPA supplement used in REDUCE-IT is just one of three long chain n-3 omega-3 fatty acids that influence lipids and lipoproteins and other aspects of cardiovascular risk. Most research has focused on the evaluation of EPA and DHA, which are the two predominant n-3 FA in fish and in n-3 agents, but docosapentaenoic acid (DPA) is present in fish oil, as well, and accumulates in the blood at similar concentrations. The carbon length of the n-3 FA appears important for physiological effects. EPA has a carbon length of 20, DHA has a carbon length of 22, and DPA, the metabolic intermediate of EPA and DHA, is a 22-carbon n-3 FA. DPA may have significant potential for treating HTG and VHTG,[12, 13] but research on this fatty acid remains limited. In a 2-week open-label crossover comparison of 4 g/d of a DPA concentrate (containing unspecified amounts of free DPA and EPA) vs. 4 g/d EPA concentrate in people with HTG, plasma TG were reduced 33% by the DPA concentrate, which was significantly more than the 11% reduction with EPA.[13] Thus, a recent scientific advisory from the American Heart Association (Skulas-Ray et al, in press) concluded that more research is needed to elaborate the lipid and lipoprotein effects of DPA. Additional biomarker research suggests DPA similarly can influence health outcomes that respond to EPA and DHA. For instance, decreased serum concentrations of DPA and DPA + DHA have been associated with increased risk of risk of acute coronary events[14] and myocardial infarction[15], respectively. Plasma DPA was also inversely associated with incident cardiovascular disease (CVD) in some ethnic groups.[16] In conclusion evidence supports a potential role of DPA in improving health, but results from clinical supplementation studies are needed to clarify the effect of DPA supplementation on lipids and lipoproteins as well as other cardiovascular disease risk factors-relative to supplementation with EPA and DHA-to ascertain whether enrichment of omega-3 concentrates with DPA could offer health benefits above and beyond concentrates that only contain EPA and DHA.
This phase I trial studies the side effects and best dose of gemcitabine and cisplatin when given together with ivosidenib or pemigatinib in treating patients with cholangiocarcinoma that cannot be removed with surgery (unresectable) or has spread to other places in the body (metastatic). Chemotherapy drugs, such as gemcitabine and cisplatin, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Ivosidenib and pemigatinib may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Giving gemcitabine and cisplatin with ivosidenib or pemigatinib may work better in treating patients with cholangiocarcinoma compared to gemcitabine and cisplatin alone.